/usr/lib/python2.7/dist-packages/mercurial/revlog.py is in mercurial-common 2.8.2-1ubuntu1.
This file is owned by root:root, with mode 0o644.
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1222 1223 1224 1225 1226 1227 1228 1229 1230 1231 1232 1233 1234 1235 1236 1237 1238 1239 1240 1241 1242 1243 1244 1245 1246 1247 1248 1249 1250 1251 1252 1253 1254 1255 1256 1257 1258 1259 1260 1261 1262 1263 1264 1265 1266 1267 1268 1269 1270 1271 1272 1273 1274 1275 1276 1277 1278 1279 1280 1281 1282 1283 1284 1285 1286 1287 1288 1289 1290 1291 1292 1293 1294 1295 1296 1297 1298 1299 1300 1301 1302 1303 1304 1305 1306 1307 1308 1309 1310 1311 1312 1313 1314 1315 1316 1317 1318 1319 1320 1321 1322 1323 1324 1325 1326 1327 1328 1329 1330 1331 1332 1333 1334 1335 1336 1337 1338 1339 1340 1341 1342 1343 1344 1345 1346 1347 1348 | # revlog.py - storage back-end for mercurial
#
# Copyright 2005-2007 Matt Mackall <mpm@selenic.com>
#
# This software may be used and distributed according to the terms of the
# GNU General Public License version 2 or any later version.
"""Storage back-end for Mercurial.
This provides efficient delta storage with O(1) retrieve and append
and O(changes) merge between branches.
"""
# import stuff from node for others to import from revlog
from node import bin, hex, nullid, nullrev
from i18n import _
import ancestor, mdiff, parsers, error, util, templatefilters
import struct, zlib, errno
_pack = struct.pack
_unpack = struct.unpack
_compress = zlib.compress
_decompress = zlib.decompress
_sha = util.sha1
# revlog header flags
REVLOGV0 = 0
REVLOGNG = 1
REVLOGNGINLINEDATA = (1 << 16)
REVLOGGENERALDELTA = (1 << 17)
REVLOG_DEFAULT_FLAGS = REVLOGNGINLINEDATA
REVLOG_DEFAULT_FORMAT = REVLOGNG
REVLOG_DEFAULT_VERSION = REVLOG_DEFAULT_FORMAT | REVLOG_DEFAULT_FLAGS
REVLOGNG_FLAGS = REVLOGNGINLINEDATA | REVLOGGENERALDELTA
# revlog index flags
REVIDX_KNOWN_FLAGS = 0
# max size of revlog with inline data
_maxinline = 131072
_chunksize = 1048576
RevlogError = error.RevlogError
LookupError = error.LookupError
def getoffset(q):
return int(q >> 16)
def gettype(q):
return int(q & 0xFFFF)
def offset_type(offset, type):
return long(long(offset) << 16 | type)
nullhash = _sha(nullid)
def hash(text, p1, p2):
"""generate a hash from the given text and its parent hashes
This hash combines both the current file contents and its history
in a manner that makes it easy to distinguish nodes with the same
content in the revision graph.
"""
# As of now, if one of the parent node is null, p2 is null
if p2 == nullid:
# deep copy of a hash is faster than creating one
s = nullhash.copy()
s.update(p1)
else:
# none of the parent nodes are nullid
l = [p1, p2]
l.sort()
s = _sha(l[0])
s.update(l[1])
s.update(text)
return s.digest()
def decompress(bin):
""" decompress the given input """
if not bin:
return bin
t = bin[0]
if t == '\0':
return bin
if t == 'x':
try:
return _decompress(bin)
except zlib.error, e:
raise RevlogError(_("revlog decompress error: %s") % str(e))
if t == 'u':
return bin[1:]
raise RevlogError(_("unknown compression type %r") % t)
# index v0:
# 4 bytes: offset
# 4 bytes: compressed length
# 4 bytes: base rev
# 4 bytes: link rev
# 32 bytes: parent 1 nodeid
# 32 bytes: parent 2 nodeid
# 32 bytes: nodeid
indexformatv0 = ">4l20s20s20s"
v0shaoffset = 56
class revlogoldio(object):
def __init__(self):
self.size = struct.calcsize(indexformatv0)
def parseindex(self, data, inline):
s = self.size
index = []
nodemap = {nullid: nullrev}
n = off = 0
l = len(data)
while off + s <= l:
cur = data[off:off + s]
off += s
e = _unpack(indexformatv0, cur)
# transform to revlogv1 format
e2 = (offset_type(e[0], 0), e[1], -1, e[2], e[3],
nodemap.get(e[4], nullrev), nodemap.get(e[5], nullrev), e[6])
index.append(e2)
nodemap[e[6]] = n
n += 1
# add the magic null revision at -1
index.append((0, 0, 0, -1, -1, -1, -1, nullid))
return index, nodemap, None
def packentry(self, entry, node, version, rev):
if gettype(entry[0]):
raise RevlogError(_("index entry flags need RevlogNG"))
e2 = (getoffset(entry[0]), entry[1], entry[3], entry[4],
node(entry[5]), node(entry[6]), entry[7])
return _pack(indexformatv0, *e2)
# index ng:
# 6 bytes: offset
# 2 bytes: flags
# 4 bytes: compressed length
# 4 bytes: uncompressed length
# 4 bytes: base rev
# 4 bytes: link rev
# 4 bytes: parent 1 rev
# 4 bytes: parent 2 rev
# 32 bytes: nodeid
indexformatng = ">Qiiiiii20s12x"
ngshaoffset = 32
versionformat = ">I"
class revlogio(object):
def __init__(self):
self.size = struct.calcsize(indexformatng)
def parseindex(self, data, inline):
# call the C implementation to parse the index data
index, cache = parsers.parse_index2(data, inline)
return index, getattr(index, 'nodemap', None), cache
def packentry(self, entry, node, version, rev):
p = _pack(indexformatng, *entry)
if rev == 0:
p = _pack(versionformat, version) + p[4:]
return p
class revlog(object):
"""
the underlying revision storage object
A revlog consists of two parts, an index and the revision data.
The index is a file with a fixed record size containing
information on each revision, including its nodeid (hash), the
nodeids of its parents, the position and offset of its data within
the data file, and the revision it's based on. Finally, each entry
contains a linkrev entry that can serve as a pointer to external
data.
The revision data itself is a linear collection of data chunks.
Each chunk represents a revision and is usually represented as a
delta against the previous chunk. To bound lookup time, runs of
deltas are limited to about 2 times the length of the original
version data. This makes retrieval of a version proportional to
its size, or O(1) relative to the number of revisions.
Both pieces of the revlog are written to in an append-only
fashion, which means we never need to rewrite a file to insert or
remove data, and can use some simple techniques to avoid the need
for locking while reading.
"""
def __init__(self, opener, indexfile):
"""
create a revlog object
opener is a function that abstracts the file opening operation
and can be used to implement COW semantics or the like.
"""
self.indexfile = indexfile
self.datafile = indexfile[:-2] + ".d"
self.opener = opener
self._cache = None
self._basecache = None
self._chunkcache = (0, '')
self.index = []
self._pcache = {}
self._nodecache = {nullid: nullrev}
self._nodepos = None
v = REVLOG_DEFAULT_VERSION
opts = getattr(opener, 'options', None)
if opts is not None:
if 'revlogv1' in opts:
if 'generaldelta' in opts:
v |= REVLOGGENERALDELTA
else:
v = 0
i = ''
self._initempty = True
try:
f = self.opener(self.indexfile)
i = f.read()
f.close()
if len(i) > 0:
v = struct.unpack(versionformat, i[:4])[0]
self._initempty = False
except IOError, inst:
if inst.errno != errno.ENOENT:
raise
self.version = v
self._inline = v & REVLOGNGINLINEDATA
self._generaldelta = v & REVLOGGENERALDELTA
flags = v & ~0xFFFF
fmt = v & 0xFFFF
if fmt == REVLOGV0 and flags:
raise RevlogError(_("index %s unknown flags %#04x for format v0")
% (self.indexfile, flags >> 16))
elif fmt == REVLOGNG and flags & ~REVLOGNG_FLAGS:
raise RevlogError(_("index %s unknown flags %#04x for revlogng")
% (self.indexfile, flags >> 16))
elif fmt > REVLOGNG:
raise RevlogError(_("index %s unknown format %d")
% (self.indexfile, fmt))
self._io = revlogio()
if self.version == REVLOGV0:
self._io = revlogoldio()
try:
d = self._io.parseindex(i, self._inline)
except (ValueError, IndexError):
raise RevlogError(_("index %s is corrupted") % (self.indexfile))
self.index, nodemap, self._chunkcache = d
if nodemap is not None:
self.nodemap = self._nodecache = nodemap
if not self._chunkcache:
self._chunkclear()
def tip(self):
return self.node(len(self.index) - 2)
def __len__(self):
return len(self.index) - 1
def __iter__(self):
return iter(xrange(len(self)))
def revs(self, start=0, stop=None):
"""iterate over all rev in this revlog (from start to stop)"""
step = 1
if stop is not None:
if start > stop:
step = -1
stop += step
else:
stop = len(self)
return xrange(start, stop, step)
@util.propertycache
def nodemap(self):
self.rev(self.node(0))
return self._nodecache
def hasnode(self, node):
try:
self.rev(node)
return True
except KeyError:
return False
def clearcaches(self):
try:
self._nodecache.clearcaches()
except AttributeError:
self._nodecache = {nullid: nullrev}
self._nodepos = None
def rev(self, node):
try:
return self._nodecache[node]
except RevlogError:
# parsers.c radix tree lookup failed
raise LookupError(node, self.indexfile, _('no node'))
except KeyError:
# pure python cache lookup failed
n = self._nodecache
i = self.index
p = self._nodepos
if p is None:
p = len(i) - 2
for r in xrange(p, -1, -1):
v = i[r][7]
n[v] = r
if v == node:
self._nodepos = r - 1
return r
raise LookupError(node, self.indexfile, _('no node'))
def node(self, rev):
return self.index[rev][7]
def linkrev(self, rev):
return self.index[rev][4]
def parents(self, node):
i = self.index
d = i[self.rev(node)]
return i[d[5]][7], i[d[6]][7] # map revisions to nodes inline
def parentrevs(self, rev):
return self.index[rev][5:7]
def start(self, rev):
return int(self.index[rev][0] >> 16)
def end(self, rev):
return self.start(rev) + self.length(rev)
def length(self, rev):
return self.index[rev][1]
def chainbase(self, rev):
index = self.index
base = index[rev][3]
while base != rev:
rev = base
base = index[rev][3]
return base
def flags(self, rev):
return self.index[rev][0] & 0xFFFF
def rawsize(self, rev):
"""return the length of the uncompressed text for a given revision"""
l = self.index[rev][2]
if l >= 0:
return l
t = self.revision(self.node(rev))
return len(t)
size = rawsize
def ancestors(self, revs, stoprev=0, inclusive=False):
"""Generate the ancestors of 'revs' in reverse topological order.
Does not generate revs lower than stoprev.
See the documentation for ancestor.lazyancestors for more details."""
return ancestor.lazyancestors(self, revs, stoprev=stoprev,
inclusive=inclusive)
def descendants(self, revs):
"""Generate the descendants of 'revs' in revision order.
Yield a sequence of revision numbers starting with a child of
some rev in revs, i.e., each revision is *not* considered a
descendant of itself. Results are ordered by revision number (a
topological sort)."""
first = min(revs)
if first == nullrev:
for i in self:
yield i
return
seen = set(revs)
for i in self.revs(start=first + 1):
for x in self.parentrevs(i):
if x != nullrev and x in seen:
seen.add(i)
yield i
break
def findcommonmissing(self, common=None, heads=None):
"""Return a tuple of the ancestors of common and the ancestors of heads
that are not ancestors of common. In revset terminology, we return the
tuple:
::common, (::heads) - (::common)
The list is sorted by revision number, meaning it is
topologically sorted.
'heads' and 'common' are both lists of node IDs. If heads is
not supplied, uses all of the revlog's heads. If common is not
supplied, uses nullid."""
if common is None:
common = [nullid]
if heads is None:
heads = self.heads()
common = [self.rev(n) for n in common]
heads = [self.rev(n) for n in heads]
# we want the ancestors, but inclusive
has = set(self.ancestors(common))
has.add(nullrev)
has.update(common)
# take all ancestors from heads that aren't in has
missing = set()
visit = util.deque(r for r in heads if r not in has)
while visit:
r = visit.popleft()
if r in missing:
continue
else:
missing.add(r)
for p in self.parentrevs(r):
if p not in has:
visit.append(p)
missing = list(missing)
missing.sort()
return has, [self.node(r) for r in missing]
def findmissingrevs(self, common=None, heads=None):
"""Return the revision numbers of the ancestors of heads that
are not ancestors of common.
More specifically, return a list of revision numbers corresponding to
nodes N such that every N satisfies the following constraints:
1. N is an ancestor of some node in 'heads'
2. N is not an ancestor of any node in 'common'
The list is sorted by revision number, meaning it is
topologically sorted.
'heads' and 'common' are both lists of revision numbers. If heads is
not supplied, uses all of the revlog's heads. If common is not
supplied, uses nullid."""
if common is None:
common = [nullrev]
if heads is None:
heads = self.headrevs()
return ancestor.missingancestors(heads, common, self.parentrevs)
def findmissing(self, common=None, heads=None):
"""Return the ancestors of heads that are not ancestors of common.
More specifically, return a list of nodes N such that every N
satisfies the following constraints:
1. N is an ancestor of some node in 'heads'
2. N is not an ancestor of any node in 'common'
The list is sorted by revision number, meaning it is
topologically sorted.
'heads' and 'common' are both lists of node IDs. If heads is
not supplied, uses all of the revlog's heads. If common is not
supplied, uses nullid."""
if common is None:
common = [nullid]
if heads is None:
heads = self.heads()
common = [self.rev(n) for n in common]
heads = [self.rev(n) for n in heads]
return [self.node(r) for r in
ancestor.missingancestors(heads, common, self.parentrevs)]
def nodesbetween(self, roots=None, heads=None):
"""Return a topological path from 'roots' to 'heads'.
Return a tuple (nodes, outroots, outheads) where 'nodes' is a
topologically sorted list of all nodes N that satisfy both of
these constraints:
1. N is a descendant of some node in 'roots'
2. N is an ancestor of some node in 'heads'
Every node is considered to be both a descendant and an ancestor
of itself, so every reachable node in 'roots' and 'heads' will be
included in 'nodes'.
'outroots' is the list of reachable nodes in 'roots', i.e., the
subset of 'roots' that is returned in 'nodes'. Likewise,
'outheads' is the subset of 'heads' that is also in 'nodes'.
'roots' and 'heads' are both lists of node IDs. If 'roots' is
unspecified, uses nullid as the only root. If 'heads' is
unspecified, uses list of all of the revlog's heads."""
nonodes = ([], [], [])
if roots is not None:
roots = list(roots)
if not roots:
return nonodes
lowestrev = min([self.rev(n) for n in roots])
else:
roots = [nullid] # Everybody's a descendant of nullid
lowestrev = nullrev
if (lowestrev == nullrev) and (heads is None):
# We want _all_ the nodes!
return ([self.node(r) for r in self], [nullid], list(self.heads()))
if heads is None:
# All nodes are ancestors, so the latest ancestor is the last
# node.
highestrev = len(self) - 1
# Set ancestors to None to signal that every node is an ancestor.
ancestors = None
# Set heads to an empty dictionary for later discovery of heads
heads = {}
else:
heads = list(heads)
if not heads:
return nonodes
ancestors = set()
# Turn heads into a dictionary so we can remove 'fake' heads.
# Also, later we will be using it to filter out the heads we can't
# find from roots.
heads = dict.fromkeys(heads, False)
# Start at the top and keep marking parents until we're done.
nodestotag = set(heads)
# Remember where the top was so we can use it as a limit later.
highestrev = max([self.rev(n) for n in nodestotag])
while nodestotag:
# grab a node to tag
n = nodestotag.pop()
# Never tag nullid
if n == nullid:
continue
# A node's revision number represents its place in a
# topologically sorted list of nodes.
r = self.rev(n)
if r >= lowestrev:
if n not in ancestors:
# If we are possibly a descendant of one of the roots
# and we haven't already been marked as an ancestor
ancestors.add(n) # Mark as ancestor
# Add non-nullid parents to list of nodes to tag.
nodestotag.update([p for p in self.parents(n) if
p != nullid])
elif n in heads: # We've seen it before, is it a fake head?
# So it is, real heads should not be the ancestors of
# any other heads.
heads.pop(n)
if not ancestors:
return nonodes
# Now that we have our set of ancestors, we want to remove any
# roots that are not ancestors.
# If one of the roots was nullid, everything is included anyway.
if lowestrev > nullrev:
# But, since we weren't, let's recompute the lowest rev to not
# include roots that aren't ancestors.
# Filter out roots that aren't ancestors of heads
roots = [n for n in roots if n in ancestors]
# Recompute the lowest revision
if roots:
lowestrev = min([self.rev(n) for n in roots])
else:
# No more roots? Return empty list
return nonodes
else:
# We are descending from nullid, and don't need to care about
# any other roots.
lowestrev = nullrev
roots = [nullid]
# Transform our roots list into a set.
descendants = set(roots)
# Also, keep the original roots so we can filter out roots that aren't
# 'real' roots (i.e. are descended from other roots).
roots = descendants.copy()
# Our topologically sorted list of output nodes.
orderedout = []
# Don't start at nullid since we don't want nullid in our output list,
# and if nullid shows up in descendants, empty parents will look like
# they're descendants.
for r in self.revs(start=max(lowestrev, 0), stop=highestrev + 1):
n = self.node(r)
isdescendant = False
if lowestrev == nullrev: # Everybody is a descendant of nullid
isdescendant = True
elif n in descendants:
# n is already a descendant
isdescendant = True
# This check only needs to be done here because all the roots
# will start being marked is descendants before the loop.
if n in roots:
# If n was a root, check if it's a 'real' root.
p = tuple(self.parents(n))
# If any of its parents are descendants, it's not a root.
if (p[0] in descendants) or (p[1] in descendants):
roots.remove(n)
else:
p = tuple(self.parents(n))
# A node is a descendant if either of its parents are
# descendants. (We seeded the dependents list with the roots
# up there, remember?)
if (p[0] in descendants) or (p[1] in descendants):
descendants.add(n)
isdescendant = True
if isdescendant and ((ancestors is None) or (n in ancestors)):
# Only include nodes that are both descendants and ancestors.
orderedout.append(n)
if (ancestors is not None) and (n in heads):
# We're trying to figure out which heads are reachable
# from roots.
# Mark this head as having been reached
heads[n] = True
elif ancestors is None:
# Otherwise, we're trying to discover the heads.
# Assume this is a head because if it isn't, the next step
# will eventually remove it.
heads[n] = True
# But, obviously its parents aren't.
for p in self.parents(n):
heads.pop(p, None)
heads = [n for n, flag in heads.iteritems() if flag]
roots = list(roots)
assert orderedout
assert roots
assert heads
return (orderedout, roots, heads)
def headrevs(self):
try:
return self.index.headrevs()
except AttributeError:
return self._headrevs()
def _headrevs(self):
count = len(self)
if not count:
return [nullrev]
# we won't iter over filtered rev so nobody is a head at start
ishead = [0] * (count + 1)
index = self.index
for r in self:
ishead[r] = 1 # I may be an head
e = index[r]
ishead[e[5]] = ishead[e[6]] = 0 # my parent are not
return [r for r, val in enumerate(ishead) if val]
def heads(self, start=None, stop=None):
"""return the list of all nodes that have no children
if start is specified, only heads that are descendants of
start will be returned
if stop is specified, it will consider all the revs from stop
as if they had no children
"""
if start is None and stop is None:
if not len(self):
return [nullid]
return [self.node(r) for r in self.headrevs()]
if start is None:
start = nullid
if stop is None:
stop = []
stoprevs = set([self.rev(n) for n in stop])
startrev = self.rev(start)
reachable = set((startrev,))
heads = set((startrev,))
parentrevs = self.parentrevs
for r in self.revs(start=startrev + 1):
for p in parentrevs(r):
if p in reachable:
if r not in stoprevs:
reachable.add(r)
heads.add(r)
if p in heads and p not in stoprevs:
heads.remove(p)
return [self.node(r) for r in heads]
def children(self, node):
"""find the children of a given node"""
c = []
p = self.rev(node)
for r in self.revs(start=p + 1):
prevs = [pr for pr in self.parentrevs(r) if pr != nullrev]
if prevs:
for pr in prevs:
if pr == p:
c.append(self.node(r))
elif p == nullrev:
c.append(self.node(r))
return c
def descendant(self, start, end):
if start == nullrev:
return True
for i in self.descendants([start]):
if i == end:
return True
elif i > end:
break
return False
def ancestor(self, a, b):
"""calculate the least common ancestor of nodes a and b"""
a, b = self.rev(a), self.rev(b)
try:
ancs = self.index.ancestors(a, b)
except (AttributeError, OverflowError):
ancs = ancestor.ancestors(self.parentrevs, a, b)
if ancs:
# choose a consistent winner when there's a tie
return min(map(self.node, ancs))
return nullid
def _match(self, id):
if isinstance(id, int):
# rev
return self.node(id)
if len(id) == 20:
# possibly a binary node
# odds of a binary node being all hex in ASCII are 1 in 10**25
try:
node = id
self.rev(node) # quick search the index
return node
except LookupError:
pass # may be partial hex id
try:
# str(rev)
rev = int(id)
if str(rev) != id:
raise ValueError
if rev < 0:
rev = len(self) + rev
if rev < 0 or rev >= len(self):
raise ValueError
return self.node(rev)
except (ValueError, OverflowError):
pass
if len(id) == 40:
try:
# a full hex nodeid?
node = bin(id)
self.rev(node)
return node
except (TypeError, LookupError):
pass
def _partialmatch(self, id):
try:
n = self.index.partialmatch(id)
if n and self.hasnode(n):
return n
return None
except RevlogError:
# parsers.c radix tree lookup gave multiple matches
# fall through to slow path that filters hidden revisions
pass
except (AttributeError, ValueError):
# we are pure python, or key was too short to search radix tree
pass
if id in self._pcache:
return self._pcache[id]
if len(id) < 40:
try:
# hex(node)[:...]
l = len(id) // 2 # grab an even number of digits
prefix = bin(id[:l * 2])
nl = [e[7] for e in self.index if e[7].startswith(prefix)]
nl = [n for n in nl if hex(n).startswith(id) and
self.hasnode(n)]
if len(nl) > 0:
if len(nl) == 1:
self._pcache[id] = nl[0]
return nl[0]
raise LookupError(id, self.indexfile,
_('ambiguous identifier'))
return None
except TypeError:
pass
def lookup(self, id):
"""locate a node based on:
- revision number or str(revision number)
- nodeid or subset of hex nodeid
"""
n = self._match(id)
if n is not None:
return n
n = self._partialmatch(id)
if n:
return n
raise LookupError(id, self.indexfile, _('no match found'))
def cmp(self, node, text):
"""compare text with a given file revision
returns True if text is different than what is stored.
"""
p1, p2 = self.parents(node)
return hash(text, p1, p2) != node
def _addchunk(self, offset, data):
o, d = self._chunkcache
# try to add to existing cache
if o + len(d) == offset and len(d) + len(data) < _chunksize:
self._chunkcache = o, d + data
else:
self._chunkcache = offset, data
def _loadchunk(self, offset, length):
if self._inline:
df = self.opener(self.indexfile)
else:
df = self.opener(self.datafile)
readahead = max(65536, length)
df.seek(offset)
d = df.read(readahead)
df.close()
self._addchunk(offset, d)
if readahead > length:
return util.buffer(d, 0, length)
return d
def _getchunk(self, offset, length):
o, d = self._chunkcache
l = len(d)
# is it in the cache?
cachestart = offset - o
cacheend = cachestart + length
if cachestart >= 0 and cacheend <= l:
if cachestart == 0 and cacheend == l:
return d # avoid a copy
return util.buffer(d, cachestart, cacheend - cachestart)
return self._loadchunk(offset, length)
def _chunkraw(self, startrev, endrev):
start = self.start(startrev)
end = self.end(endrev)
if self._inline:
start += (startrev + 1) * self._io.size
end += (endrev + 1) * self._io.size
length = end - start
return self._getchunk(start, length)
def _chunk(self, rev):
return decompress(self._chunkraw(rev, rev))
def _chunks(self, revs):
'''faster version of [self._chunk(rev) for rev in revs]
Assumes that revs is in ascending order.'''
if not revs:
return []
start = self.start
length = self.length
inline = self._inline
iosize = self._io.size
buffer = util.buffer
l = []
ladd = l.append
# preload the cache
self._chunkraw(revs[0], revs[-1])
offset, data = self._chunkcache
for rev in revs:
chunkstart = start(rev)
if inline:
chunkstart += (rev + 1) * iosize
chunklength = length(rev)
ladd(decompress(buffer(data, chunkstart - offset, chunklength)))
return l
def _chunkclear(self):
self._chunkcache = (0, '')
def deltaparent(self, rev):
"""return deltaparent of the given revision"""
base = self.index[rev][3]
if base == rev:
return nullrev
elif self._generaldelta:
return base
else:
return rev - 1
def revdiff(self, rev1, rev2):
"""return or calculate a delta between two revisions"""
if rev1 != nullrev and self.deltaparent(rev2) == rev1:
return str(self._chunk(rev2))
return mdiff.textdiff(self.revision(rev1),
self.revision(rev2))
def revision(self, nodeorrev):
"""return an uncompressed revision of a given node or revision
number.
"""
if isinstance(nodeorrev, int):
rev = nodeorrev
node = self.node(rev)
else:
node = nodeorrev
rev = None
cachedrev = None
if node == nullid:
return ""
if self._cache:
if self._cache[0] == node:
return self._cache[2]
cachedrev = self._cache[1]
# look up what we need to read
text = None
if rev is None:
rev = self.rev(node)
# check rev flags
if self.flags(rev) & ~REVIDX_KNOWN_FLAGS:
raise RevlogError(_('incompatible revision flag %x') %
(self.flags(rev) & ~REVIDX_KNOWN_FLAGS))
# build delta chain
chain = []
index = self.index # for performance
generaldelta = self._generaldelta
iterrev = rev
e = index[iterrev]
while iterrev != e[3] and iterrev != cachedrev:
chain.append(iterrev)
if generaldelta:
iterrev = e[3]
else:
iterrev -= 1
e = index[iterrev]
if iterrev == cachedrev:
# cache hit
text = self._cache[2]
else:
chain.append(iterrev)
chain.reverse()
# drop cache to save memory
self._cache = None
bins = self._chunks(chain)
if text is None:
text = str(bins[0])
bins = bins[1:]
text = mdiff.patches(text, bins)
text = self._checkhash(text, node, rev)
self._cache = (node, rev, text)
return text
def _checkhash(self, text, node, rev):
p1, p2 = self.parents(node)
self.checkhash(text, p1, p2, node, rev)
return text
def checkhash(self, text, p1, p2, node, rev=None):
if node != hash(text, p1, p2):
revornode = rev
if revornode is None:
revornode = templatefilters.short(hex(node))
raise RevlogError(_("integrity check failed on %s:%s")
% (self.indexfile, revornode))
def checkinlinesize(self, tr, fp=None):
if not self._inline or (self.start(-2) + self.length(-2)) < _maxinline:
return
trinfo = tr.find(self.indexfile)
if trinfo is None:
raise RevlogError(_("%s not found in the transaction")
% self.indexfile)
trindex = trinfo[2]
dataoff = self.start(trindex)
tr.add(self.datafile, dataoff)
if fp:
fp.flush()
fp.close()
df = self.opener(self.datafile, 'w')
try:
for r in self:
df.write(self._chunkraw(r, r))
finally:
df.close()
fp = self.opener(self.indexfile, 'w', atomictemp=True)
self.version &= ~(REVLOGNGINLINEDATA)
self._inline = False
for i in self:
e = self._io.packentry(self.index[i], self.node, self.version, i)
fp.write(e)
# if we don't call close, the temp file will never replace the
# real index
fp.close()
tr.replace(self.indexfile, trindex * self._io.size)
self._chunkclear()
def addrevision(self, text, transaction, link, p1, p2, cachedelta=None,
node=None):
"""add a revision to the log
text - the revision data to add
transaction - the transaction object used for rollback
link - the linkrev data to add
p1, p2 - the parent nodeids of the revision
cachedelta - an optional precomputed delta
node - nodeid of revision; typically node is not specified, and it is
computed by default as hash(text, p1, p2), however subclasses might
use different hashing method (and override checkhash() in such case)
"""
if link == nullrev:
raise RevlogError(_("attempted to add linkrev -1 to %s")
% self.indexfile)
node = node or hash(text, p1, p2)
if node in self.nodemap:
return node
dfh = None
if not self._inline:
dfh = self.opener(self.datafile, "a")
ifh = self.opener(self.indexfile, "a+")
try:
return self._addrevision(node, text, transaction, link, p1, p2,
cachedelta, ifh, dfh)
finally:
if dfh:
dfh.close()
ifh.close()
def compress(self, text):
""" generate a possibly-compressed representation of text """
if not text:
return ("", text)
l = len(text)
bin = None
if l < 44:
pass
elif l > 1000000:
# zlib makes an internal copy, thus doubling memory usage for
# large files, so lets do this in pieces
z = zlib.compressobj()
p = []
pos = 0
while pos < l:
pos2 = pos + 2**20
p.append(z.compress(text[pos:pos2]))
pos = pos2
p.append(z.flush())
if sum(map(len, p)) < l:
bin = "".join(p)
else:
bin = _compress(text)
if bin is None or len(bin) > l:
if text[0] == '\0':
return ("", text)
return ('u', text)
return ("", bin)
def _addrevision(self, node, text, transaction, link, p1, p2,
cachedelta, ifh, dfh):
"""internal function to add revisions to the log
see addrevision for argument descriptions.
invariants:
- text is optional (can be None); if not set, cachedelta must be set.
if both are set, they must correspond to each other.
"""
btext = [text]
def buildtext():
if btext[0] is not None:
return btext[0]
# flush any pending writes here so we can read it in revision
if dfh:
dfh.flush()
ifh.flush()
basetext = self.revision(self.node(cachedelta[0]))
btext[0] = mdiff.patch(basetext, cachedelta[1])
self.checkhash(btext[0], p1, p2, node)
return btext[0]
def builddelta(rev):
# can we use the cached delta?
if cachedelta and cachedelta[0] == rev:
delta = cachedelta[1]
else:
t = buildtext()
ptext = self.revision(self.node(rev))
delta = mdiff.textdiff(ptext, t)
data = self.compress(delta)
l = len(data[1]) + len(data[0])
if basecache[0] == rev:
chainbase = basecache[1]
else:
chainbase = self.chainbase(rev)
dist = l + offset - self.start(chainbase)
if self._generaldelta:
base = rev
else:
base = chainbase
return dist, l, data, base, chainbase
curr = len(self)
prev = curr - 1
base = chainbase = curr
offset = self.end(prev)
flags = 0
d = None
if self._basecache is None:
self._basecache = (prev, self.chainbase(prev))
basecache = self._basecache
p1r, p2r = self.rev(p1), self.rev(p2)
# should we try to build a delta?
if prev != nullrev:
if self._generaldelta:
if p1r >= basecache[1]:
d = builddelta(p1r)
elif p2r >= basecache[1]:
d = builddelta(p2r)
else:
d = builddelta(prev)
else:
d = builddelta(prev)
dist, l, data, base, chainbase = d
# full versions are inserted when the needed deltas
# become comparable to the uncompressed text
if text is None:
textlen = mdiff.patchedsize(self.rawsize(cachedelta[0]),
cachedelta[1])
else:
textlen = len(text)
if d is None or dist > textlen * 2:
text = buildtext()
data = self.compress(text)
l = len(data[1]) + len(data[0])
base = chainbase = curr
e = (offset_type(offset, flags), l, textlen,
base, link, p1r, p2r, node)
self.index.insert(-1, e)
self.nodemap[node] = curr
entry = self._io.packentry(e, self.node, self.version, curr)
if not self._inline:
transaction.add(self.datafile, offset)
transaction.add(self.indexfile, curr * len(entry))
if data[0]:
dfh.write(data[0])
dfh.write(data[1])
dfh.flush()
ifh.write(entry)
else:
offset += curr * self._io.size
transaction.add(self.indexfile, offset, curr)
ifh.write(entry)
ifh.write(data[0])
ifh.write(data[1])
self.checkinlinesize(transaction, ifh)
if type(text) == str: # only accept immutable objects
self._cache = (node, curr, text)
self._basecache = (curr, chainbase)
return node
def addgroup(self, bundle, linkmapper, transaction):
"""
add a delta group
given a set of deltas, add them to the revision log. the
first delta is against its parent, which should be in our
log, the rest are against the previous delta.
"""
# track the base of the current delta log
content = []
node = None
r = len(self)
end = 0
if r:
end = self.end(r - 1)
ifh = self.opener(self.indexfile, "a+")
isize = r * self._io.size
if self._inline:
transaction.add(self.indexfile, end + isize, r)
dfh = None
else:
transaction.add(self.indexfile, isize, r)
transaction.add(self.datafile, end)
dfh = self.opener(self.datafile, "a")
try:
# loop through our set of deltas
chain = None
while True:
chunkdata = bundle.deltachunk(chain)
if not chunkdata:
break
node = chunkdata['node']
p1 = chunkdata['p1']
p2 = chunkdata['p2']
cs = chunkdata['cs']
deltabase = chunkdata['deltabase']
delta = chunkdata['delta']
content.append(node)
link = linkmapper(cs)
if node in self.nodemap:
# this can happen if two branches make the same change
chain = node
continue
for p in (p1, p2):
if p not in self.nodemap:
raise LookupError(p, self.indexfile,
_('unknown parent'))
if deltabase not in self.nodemap:
raise LookupError(deltabase, self.indexfile,
_('unknown delta base'))
baserev = self.rev(deltabase)
chain = self._addrevision(node, None, transaction, link,
p1, p2, (baserev, delta), ifh, dfh)
if not dfh and not self._inline:
# addrevision switched from inline to conventional
# reopen the index
ifh.close()
dfh = self.opener(self.datafile, "a")
ifh = self.opener(self.indexfile, "a")
finally:
if dfh:
dfh.close()
ifh.close()
return content
def strip(self, minlink, transaction):
"""truncate the revlog on the first revision with a linkrev >= minlink
This function is called when we're stripping revision minlink and
its descendants from the repository.
We have to remove all revisions with linkrev >= minlink, because
the equivalent changelog revisions will be renumbered after the
strip.
So we truncate the revlog on the first of these revisions, and
trust that the caller has saved the revisions that shouldn't be
removed and that it'll re-add them after this truncation.
"""
if len(self) == 0:
return
for rev in self:
if self.index[rev][4] >= minlink:
break
else:
return
# first truncate the files on disk
end = self.start(rev)
if not self._inline:
transaction.add(self.datafile, end)
end = rev * self._io.size
else:
end += rev * self._io.size
transaction.add(self.indexfile, end)
# then reset internal state in memory to forget those revisions
self._cache = None
self._chunkclear()
for x in xrange(rev, len(self)):
del self.nodemap[self.node(x)]
del self.index[rev:-1]
def checksize(self):
expected = 0
if len(self):
expected = max(0, self.end(len(self) - 1))
try:
f = self.opener(self.datafile)
f.seek(0, 2)
actual = f.tell()
f.close()
dd = actual - expected
except IOError, inst:
if inst.errno != errno.ENOENT:
raise
dd = 0
try:
f = self.opener(self.indexfile)
f.seek(0, 2)
actual = f.tell()
f.close()
s = self._io.size
i = max(0, actual // s)
di = actual - (i * s)
if self._inline:
databytes = 0
for r in self:
databytes += max(0, self.length(r))
dd = 0
di = actual - len(self) * s - databytes
except IOError, inst:
if inst.errno != errno.ENOENT:
raise
di = 0
return (dd, di)
def files(self):
res = [self.indexfile]
if not self._inline:
res.append(self.datafile)
return res
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